/**
* sha3sum – SHA-3 (Keccak) checksum calculator
*
* Copyright © 2013, 2014 Mattias Andrée (maandree@member.fsf.org)
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Affero General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU Affero General Public License for more details.
*
* You should have received a copy of the GNU Affero General Public License
* along with this program. If not, see .
*/
#include "common.h"
#include
#include
#include
#include
#include
#include
#include
#ifndef STDIN_PATH
# ifndef DEVDIR
# define DEVDIR "/dev"
# endif
# define STDIN_PATH DEVDIR "/stdin"
#endif
#define USER_ERROR(string) \
(fprintf(stderr, "%s: %s.\n", execname, string), 1)
static char* restrict hashsum = NULL;
static char* restrict hexsum = NULL;
/**
* Print the checksum of a file
*
* @param filename The file to hash
* @param gspec Hashing parameters
* @param squeezes The number of squeezes to perform
* @param suffix The message suffix
* @param representation Either of `REPRESENTATION_BINARY`, `REPRESENTATION_UPPER_CASE`
* and `REPRESENTATION_LOWER_CASE`
* @param verbose Whether to print the hashing parameters
* @param execname `argv[0]` from `main`
* @return Zero on succes, an appropriate exit value on error
*/
int print_checksum(const char* restrict filename, libkeccak_generalised_spec_t* restrict gspec,
long squeezes, const char* restrict suffix, int representation, int verbose,
const char* restrict execname)
{
libkeccak_spec_t spec;
libkeccak_state_t state;
int r, fd;
size_t length;
if (r = libkeccak_degeneralise_spec(gspec, &spec), r)
switch (r)
{
case LIBKECCAK_GENERALISED_SPEC_ERROR_STATE_NONPOSITIVE:
return USER_ERROR("the state size must be positive");
case LIBKECCAK_GENERALISED_SPEC_ERROR_STATE_TOO_LARGE:
return USER_ERROR("the state size is too large, may not exceed 1600");
case LIBKECCAK_GENERALISED_SPEC_ERROR_STATE_MOD_25:
return USER_ERROR("the state size must be a multiple of 25");
case LIBKECCAK_GENERALISED_SPEC_ERROR_WORD_NONPOSITIVE:
return USER_ERROR("the word size must be positive");
case LIBKECCAK_GENERALISED_SPEC_ERROR_WORD_TOO_LARGE:
return USER_ERROR("the word size is too large, may not exceed 64");
case LIBKECCAK_GENERALISED_SPEC_ERROR_STATE_WORD_INCOHERENCY:
return USER_ERROR("the state size must be exactly 25 times the word size");
case LIBKECCAK_GENERALISED_SPEC_ERROR_CAPACITY_NONPOSITIVE:
return USER_ERROR("the capacity must be positive");
case LIBKECCAK_GENERALISED_SPEC_ERROR_CAPACITY_MOD_8:
return USER_ERROR("the capacity must be a multiple of 8");
case LIBKECCAK_GENERALISED_SPEC_ERROR_BITRATE_NONPOSITIVE:
return USER_ERROR("the rate must be positive");
case LIBKECCAK_GENERALISED_SPEC_ERROR_BITRATE_MOD_8:
return USER_ERROR("the rate must be a multiple of 8");
case LIBKECCAK_GENERALISED_SPEC_ERROR_OUTPUT_NONPOSITIVE:
return USER_ERROR("the output size must be positive");
default:
return USER_ERROR("unknown error in algorithm parameters");
}
if (r = libkeccak_spec_check(&spec), r)
switch (r)
{
case LIBKECCAK_SPEC_ERROR_BITRATE_NONPOSITIVE:
return USER_ERROR("the rate size must be positive");
case LIBKECCAK_SPEC_ERROR_BITRATE_MOD_8:
return USER_ERROR("the rate must be a multiple of 8");
case LIBKECCAK_SPEC_ERROR_CAPACITY_NONPOSITIVE:
return USER_ERROR("the capacity must be positive");
case LIBKECCAK_SPEC_ERROR_CAPACITY_MOD_8:
return USER_ERROR("the capacity must be a multiple of 8");
case LIBKECCAK_SPEC_ERROR_OUTPUT_NONPOSITIVE:
return USER_ERROR("the output size must be positive");
case LIBKECCAK_SPEC_ERROR_STATE_TOO_LARGE:
return USER_ERROR("the state size is too large, may not exceed 1600");
case LIBKECCAK_SPEC_ERROR_STATE_MOD_25:
return USER_ERROR("the state size must be a multiple of 25");
case LIBKECCAK_SPEC_ERROR_WORD_NON_2_POTENT:
return USER_ERROR("the word size must be a power of 2");
case LIBKECCAK_SPEC_ERROR_WORD_MOD_8:
return USER_ERROR("the word size must be a multiple of 8");
default:
return USER_ERROR("unknown error in algorithm parameters");
}
if (squeezes <= 0)
return USER_ERROR("the squeeze count be be positive");
if (verbose)
{
fprintf(stderr, "rate: %li\n", gspec->bitrate);
fprintf(stderr, "capacity: %li\n", gspec->capacity);
fprintf(stderr, "output size: %li\n", gspec->output);
fprintf(stderr, "state size: %li\n", gspec->state_size);
fprintf(stderr, "word size: %li\n", gspec->word_size);
fprintf(stderr, "squeezes: %li\n", squeezes);
}
length = (size_t)((spec.output + 7) / 8);
if (hashsum == NULL)
if (hashsum = malloc(length * sizeof(char)), hashsum == NULL)
return perror(execname), 2;
if ((hexsum == NULL) && (representation != REPRESENTATION_BINARY))
if (hexsum = malloc((length * 2 + 1) * sizeof(char)), hexsum == NULL)
return perror(execname), free(hashsum), 2;
if (fd = open(strcmp(filename, "-") ? filename : STDIN_PATH, O_RDONLY), fd < 0)
return r = (errno != ENOENT), perror(execname), free(hashsum), free(hexsum), r + 1;
if (libkeccak_generalised_sum_fd(fd, &state, &spec, suffix, squeezes > 1 ? NULL : hashsum))
return perror(execname), close(fd), libkeccak_state_fast_destroy(&state), free(hashsum), free(hexsum), 2;
close(fd);
if (squeezes > 2) libkeccak_fast_squeeze(&state, squeezes - 2);
if (squeezes > 1) libkeccak_squeeze(&state, hashsum);
libkeccak_state_fast_destroy(&state);
if (representation == REPRESENTATION_UPPER_CASE)
{
libkeccak_behex_upper(hexsum, hashsum, length);
printf("%s %s\n", hexsum, filename);
}
else if (representation == REPRESENTATION_LOWER_CASE)
{
libkeccak_behex_lower(hexsum, hashsum, length);
printf("%s %s\n", hexsum, filename);
}
else
{
size_t ptr = 0;
ssize_t wrote;
fflush(stdout);
for (;;)
{
wrote = write(STDOUT_FILENO, hashsum, length - ptr);
if (wrote <= 0)
return perror(execname), 2;
ptr += (size_t)wrote;
}
}
return 0;
}
void cleanup(void)
{
free(hashsum), hashsum = NULL;
free(hexsum), hexsum = NULL;
}